Engineering & Materials Science
Field programmable gate arrays (FPGA)
100%
Particle accelerators
66%
Network-on-chip
55%
Data storage equipment
51%
Computer hardware
40%
Routers
40%
Switches
38%
Parallel processing systems
35%
Electric power utilization
31%
Communication
30%
Throughput
29%
Reconfigurable architectures
27%
Topology
25%
Program processors
22%
Simulators
22%
Clocks
20%
Pipelines
19%
Bandwidth
18%
Interfaces (computer)
18%
Silicon
17%
Data transfer
16%
Costs
16%
Graphics processing unit
15%
Routing algorithms
15%
Bias voltage
15%
Electric potential
14%
Networks (circuits)
13%
Ethernet
12%
Wire
11%
Sleep
10%
Energy efficiency
10%
Controllers
9%
High level synthesis
9%
Multicasting
9%
Microprocessor chips
9%
Optical interconnects
8%
Embedded systems
8%
System-on-chip
8%
Flip flop circuits
8%
Edge computing
8%
Random access storage
7%
Telecommunication links
7%
Network performance
7%
Computational fluid dynamics
7%
Oils and fats
7%
Electronic equipment
7%
Energy utilization
7%
Combinatorial circuits
6%
Image processing
6%
Demonstrations
6%
Mathematics
Field Programmable Gate Array
67%
Chip
36%
Hardware
27%
Accelerator
19%
Evaluation
19%
Latency
19%
Network on chip
18%
Performance
17%
Interconnection Networks
15%
Switch
15%
Power Consumption
15%
Routing
15%
Simulator
14%
Performance Evaluation
14%
Multiprocessor
13%
Architecture
12%
Configuration
12%
Communication
12%
High Performance
11%
Deadlock
10%
Cache
10%
Reconfigurable Architectures
9%
Data-driven
9%
Virtual Channel
8%
Ethernet
8%
Throughput
8%
PC Cluster
8%
Simulation
8%
Design
8%
Router
8%
Costs
7%
Chip multiprocessors
7%
Prototype
7%
Reconfiguration
7%
High Speed
7%
Module
7%
Multistage Interconnection Networks
7%
Reconfigurable Systems
7%
Topology
7%
Leakage
7%
Energy Efficient
6%
Data Flow
6%
3D
6%
High Throughput
6%
Interconnection
6%
Embedded Processor
6%
Resources
6%
Routing Algorithm
5%
Software
5%
Parallelism
5%